FR2858392A1 - Fuel supply installation for fuel oil burner, has motorized stirrer linked to pump to make and maintain water/fuel oil emulsion inside storage tank prior to electric arc production, where water and oil admissions are concurrent - Google Patents

Abstract

The installation has water supply and main ducts (4, 9) supplying water and fuel oil respectively towards a storage tank (14). The tank has a motorized stirrer (15) making an emulsion of the water and oil. The stirrer is connected to a pump (17) to maintain the emulsion inside the tank prior to an electric arc production by a burner (1). The water admission is concurrent with the fuel oil admission towards a nozzle (12). The water is supplied from a water distribution system of premises and the fuel oil is supplied from a fuel tank. An independent claim is also included for a method for implementing a fuel supply installation for a fuel oil burner.

Description

i

  Fuel supply installation of a participating oil burner boiler in a heating and hot water supply plant.

Technical Field of the Invention

  The invention is in the field of heating installations and hot water supply of premises. It relates to a fuel supply installation of a forced-air oil burner boiler. 10 State of the art.

  It will be recalled that a heating and hot water supply installation of a room commonly employs a boiler equipped with a forced-air oil burner and at least one water exchanger. The oil burner is supplied with fuel from an installation comprising a fuel oil storage tank, and is equipped with a pump for supplying fuel oil to a nozzle. A solenoid valve allows the selective passage of oil to the nozzle, in the vicinity of which are provided means for producing an electric arc. The burner further comprises a blower for generating the pulsed air, and control means for controlling the various electrical components that it comprises, these control means being placed under the control of boiler operation control means, in particular thermostats. The feed circuit includes fuel delivery lines from the tank to the pump. At least a portion of this circuit is organized in a loop for a continuous flow of fuel oil within this loop, the necessary fuel fraction being withdrawn from the loop circuit 30 if necessary to be routed to the nozzle. Usually, a pot with a filter is placed on the loop circuit to retain any impurities from the fuel.

  According to a first variant, called monotube, the loop circuit pipes are formed in part on the fuel supply circuit. The pot with the filter is in this case connected to the tank by a main supply line.

  According to a second variant, called twin pipe, the loop circuit constitutes in its entirety the supply circuit connecting the tank and the pump.

  The implementations of the various components that the burner comprises are carried out according to a predefined operating cycle. In a current manner and for a given operating cycle, the burner control means in a first step energize the various electrical components, causing in particular the operation of the pump and the blower, commonly driven from 'a same motor organ. The burner control means comprise delay means for controlling, in a second step, the opening of the solenoid valve and the production of the electric arc for firing the fuel oil, after a predetermined duration of pre-circulation of the fuel oil. inside the loop circuit.

  Also known in the field of combustion engines applied in particular to the automotive field, the technique of adding water to a fuel, such as gasoline or the like, to promote the total combustion of the latter. This technique aims in particular to limit pollutant discharges and fouling of organs useful for fuel combustion, motorization and evacuation of unburnt. In particular, it is possible to refer to patents W00235070 (Pischunov SEMEN EVSEEVICH), EP0313086 (HARRIER GmbH), US3606868 (MAARTEN VOODG) and EP0263443 (ZUGOL AG), which describe devices implementing such a technique.

  In view of these devices, a difficulty to be overcome in order to exploit the above-mentioned technique of supplying water to fuel lies in the heterogeneity between these liquids.

  To promote their mixing, it is proposed either to bring the water to the vapor state, or to make an emulsion between the water and the fuel oil to supply the combustion engine. In the latter case, another difficulty to be overcome lies in the availability of the emulsion, and more particularly in maintaining its homogeneity at least extemporaneously fuel need.

  It emerges that these difficulties to be overcome make it difficult to translate such devices, which are organized for the fuel supply of a combustion engine, into the field of heating and hot water supply installations. It finally follows that the habits in this area, are to maintain the use of fuel oil as fuel for the boiler burner, at the expense of fouling facilities and the environment. Indeed and commonly, the efforts of the designers relate to the improvement of the efficiency of the burner to reduce the fuel consumption, and in particular the arrangement of the fuel distribution means to the nozzle and means for adjusting the air pulsed.

Object of the invention

  The general object of the present invention is to provide a fuel supply installation of a fuel burner boiler, which reduce the unburned fuel to prevent fouling of the boiler organs and pollutants.

  More particularly, the present invention, from an unusual approach in the field, proposes such an installation for supplying the burner with oil-based fuel added with water in view, in the manner known in the automotive field in particular, of reducing the unburnt and limit the fouling of the combustion chamber of the boiler detrimental to the performance of the latter.

  The installation proposed by the present invention is a plant of the kind for the fuel supply of a forced-air oil burner equipping a boiler with a participating water exchanger of a heating and hot water supply system. local.

  Such an installation comprises a fuel oil storage tank in connection with a fuel supply pump to a nozzle that comprises the burner, via a fuel supply circuit. This circuit comprises in part pipes arranged together to form a loop circuit 10 for conveying the fuel from the tank to the pump. A pot with a filter is placed on the supply circuit to retain any impurities from the fuel. Furthermore, the burner is equipped with control means for the implementation according to a predefined operating cycle of the various organs that it comprises, including the pump, a blower for the production of pulsed air, an intake solenoid valve. fuel required for the burner to the nozzle, and means for producing an electric arc placed in the vicinity of the nozzle for igniting the fuel. This predefined operating cycle consists in particular in implementing the pump and the blower prior to the opening of the solenoid valve and the production of the electric arc by means of delay means participating in the burner control means. .

  According to the present invention, such an installation is mainly characterized in that it comprises means for supplying in a defined quantity of water from the supply network of the premises to a reserve pot interposed on the loop circuit and in relationship with a main line of supply of fuel oil from the tank to the reserve pot. The latter is equipped with a motorized stirrer, propeller stirrer or the like in particular, for mixing oil and water. The pot fitted with the filter is placed on the main pipe for supplying the fuel oil from the tank. These arrangements are such that an emulsion intended to flow through the loop circuit is prepared and maintained inside the reserve pot.

  To avoid a permanent maintenance of the mixture of water and oil in the state of emulsion, it is more particularly proposed to place the implementation of the drive means of the agitator under the control of the implementation of the pump. These arrangements are such that the emulsion is prepared extemporaneously and maintained during the operating cycle of the burner, prior to the opening of the solenoid valve for fuel admission to the nozzle and the production of the electric arc.

  The means for supplying the water of the network comprise in particular a pipe 10 for supplying water connecting the network to said main pipe for supplying fuel oil from the tank. Means for selective and precise delivery of water comprising at least one solenoid valve are preferably placed on this water supply pipe. The water is delivered to the pot in a predetermined amount, selectively from said control means under whose dependence the opening and closing of said solenoid valve is placed.

  The means for selective and precise delivery of the water associate more particularly and successively a pressure regulator of the water coming from the network, said solenoid valve and a precision flowmeter, these bodies being indifferently distinct or at least two to two merged .

  More particularly, it is necessary to check whether the water network is equipped with the pressure regulator, calibrated at 3 bars in the usual way. In the absence of this regulator, it will be necessary to install it. It should be noted that since the pressure of the fuel circulating inside the installation is much lower than the water pressure inside the network, any risk of oil returning to the water network is avoided. Nevertheless and for safety, it may optionally be provided to interpose a non-return valve upstream of the reserve pot.

  The implementation of the water intake solenoid valve is advantageously jointly dependent on the implementation of the solenoid valve for fuel admission to the nozzle.

  According to a preferred embodiment, the outlet of the water supply pipe is equipped with a nozzle or the like in the zone of junction between the latter and the main pipe for supplying the fuel oil. This nozzle is incidentally equipped with means for adjusting the water it distributes, in addition possibly to the means for delivering water to refine the accuracy of the delivery of the water from the network to the pot.

  The water supply pipe opens axially inside a chamber for bringing it into contact with the main supply line for fuel oil, while the latter opens radially into the chamber. Preferably, elastic means are placed in interposition between the pot and the means for delivering the water. These provisions are intended to prevent transmission to the means for delivering water from the vibrations generated by the agitator in operation.

  These elastic means consist for example of a flexible antivibration sleeve interposed between two segments of the water supply pipe.

  An advantage of the installation proposed by the present invention will be noted, which is likely to be installed on a fuel installation of the prior art already existing on site.

  This advantage is nevertheless conditional on the establishment of the organs that it specifically comprises, and the establishment of the necessary electrical connections 30 between the control means and the associated members, to implement the method of implementation of the installation of the present invention.

  This prodécé which consists in particular to place: a) the motorization of the agitator under the control of the control means of the implementation of the pump, to cause their implementation concomitant, b) the implementation of the means d ' supplying the water of the network under the dependence of the implementation of the solenoid valve of the fuel inlet to the nozzle, to cause their concomitant implementation, and c) stopping the implementation of the motorization of the agitator and means for supplying the water of the network under the control of stopping the power supply of the corresponding organs fitted to the burner.

  It should be noted as an indication and after experimentation that a water supply to fuel oil of the order of 5% to 6% provided a satisfactory result in comparison with a given amount of fuel oil without water supply, excluding the benefit provided by a Less fouling of the boiler heating body.

Description of the figures.

  The present invention will be better understood, and details will appear in the description which will be made in connection with the figures of the attached plate, in which: FIG. 1 is a schematic illustration of an installation of fuel supply of a burner according to a preferred embodiment. Fig. 2 is a detail of Fig. 1, which schematically illustrates the connection between a water supply line and a fuel supply line participating in the installation shown in Fig. 2. 1.

  In Fig.1, an installation for the fuel supply of a burner 1 fuel oil forced air is organized to equip a boiler 2 participant of a heating and hot water supply of premises.

  This installation is organized to bring a fuel oil-based fuel enriched with water to a nozzle 12 fitted to the burner 1, this emulsion being prepared extemporaneously to the production of an electric arc by the burner 1 for firing the fuel.

  The water supply is obtained from the supply network 3 of the room to be equipped, via a pipe 4 of water supply on which are installed a solenoid valve 6 and a precision flow meter 7. On note at this stage of the description that a check valve 8 is incidentally 10 interposed upstream of the solenoid valve 6 to prevent a discharge of fuel to the network 3. It will be noted, however, that the presence on the network 3 of a regulator pressure 5 by itself dispenses with the installation of this nonreturn valve 8.

  The supply of fuel oil is carried out from a storage tank 24 via a main supply line 9. It will be noted at this stage of the description that, unusually in the field of single-pipe installations, a filter pot 26 is placed on this main supply line 9.

  Referring more particularly to FIG. 2, the pipe 4 for supplying water and the main pipe 9 for supplying fuel oil are connected via a chamber 10, inside which these pipes 4 and 9 open respectively axially and radially. The outlet of the pipe 4 for supplying water is equipped with a nozzle 11 which opens downstream of the outlet of the main supply pipe 9, in the vicinity of the outlet of an intermediate pipe 13 for conveying the mixture. of fuel added with water to a reserve pot 14.

  Returning to FIG. 1, the reserve pot 14 is of the type commonly used in the prior art for filtering the fuel in single-pipe installations.

  One aspect of the inventive step of the present invention, which consisted of deviating from its initial function a filter pot for, after removal of the filter, to give this pot an intermediate fuel reserve function within which is made an emulsion between the fuel oil and the water. This emulsion is produced by means of a motorized stirrer 16 equipping the pot 14.

  Note the presence of elastic means 25 placed on the water supply pipe 4 upstream of the pot 14 and downstream of the flow meter 7, to avoid an inappropriate transmission of the vibrations generated by the stirrer 15 in operation.

  The pot 14 is connected to a fuel supply pump 17 of the burner 1, via a pair of ducts 18 and 19 arranged to form a closed loop circuit between the pot 14, the pipes 18 and 19. and the pump 17.

  The burner 1 is equipped, in addition to the pump 17, with a solenoid valve 20 for the admission of oil to the nozzle 12, a blower generating the pulsed air, and control means 22. It will be noted that the means 22 of the burner are themselves placed under the control of control means 23 of the boiler for regulating its operation.

  More particularly, the implementations of the pump 17 and the driving motor 16 of the stirrer 14 are jointly placed under the control means 22, to cause their concomitant implementation.

  The emulsion being formed inside the reserve pot 14 during the predetermined period of operation of the pump 17, the solenoid valves 6 and 20 for admission of water and fuel oil are jointly operated at the opening by means of the control means 22, and means 27 for producing an electric arc, arranged in the vicinity of the nozzle 12, are used for firing the fuel.

  At the end of the operating cycle of the burner, the motor 16 of the stirrer 15 and the solenoid valve 6 of the water supply are de-energized by the control means 22 concomitantly at the power off of all the electrical components the burner 1.

Claims (9)

claims   1.- Installation for supplying fuel to a forced-air oil burner (1) fitted to a boiler (2) with a participating water exchanger of a heating and hot water supply system for premises, this installation comprising a tank (24) of oil reserve in connection with a pump (17) for feeding oil to a nozzle (12) that comprises the burner (1), via a supply circuit in fuel comprising in part pipes (18, 19) arranged between them to form a loop circuit for conveying oil from the tank (24) to the pump (17), a pot (26) provided with a filter being placed on the supply circuit to retain any impurities from the fuel, the burner (1) being equipped with control means (22) for implementing, according to a predefined operating cycle, the various members that it comprises, 15 including the pump (17), a blower (21) for the production of pulsed air, an elec a trovanne (20) for supplying the fuel required for the burner (1) to the nozzle (12), and means (27) for producing an electric arc placed in the close vicinity of the nozzle (12) for igniting the fuel, this predefined operating cycle consisting of implementing the pump 20 (17) and the blower (21) prior to the opening of the solenoid valve (20) and the production of the electric arc, characterized in that it comprises means for supplying a quantity of water from the supply network (3) of the premises to a reserve pot (14) interposed on the loop circuit (18, 19) and in relation to a main pipe (9) for supplying fuel oil from the tank (24) to the reserve pot (14), the latter (14) being equipped with a motorized stirrer (15) (16) for mixing the fuel oil and the fuel water, the pot (26) provided with the filter being placed on the main pipe (9) for feeding the fuel oil from the tank (24), so that an emulsion for circulation through the loop circuit (18, 19) is prepared and maintained within the supply pot (14).   2.- Installation according to claim 1, characterized in that the implementation of the drive means (16) of the agitator (15) is placed under the control of the implementation of the pump (17) to prepare extemporaneously the emulsion prior to the opening of the solenoid valve and the production of the electric arc, and to maintain it during the operating cycle of the burner.   3.- Installation according to any one of the preceding claims, characterized in that the means for supplying water from the network (3) comprises a pipe (4) for supplying water connecting the network (3) at said main conduit (9) for supplying fuel oil from the tank (24), means for selective and precise delivery of the water comprising at least one solenoid valve (6) being placed on this pipe (4). ) supplying water to deliver the water to the pot (14) in a predetermined amount and selectively from said control means (22).   4.- Installation according to claim 3, characterized in that the means for selective and precise delivery of the water successively associate a pressure regulator (5) of the water from the network (3), said solenoid valve ( 6) and a precision flowmeter (7).   5.- Installation according to any one of claims 3 and 4, characterized in that the implementation of the solenoid valve (6) water intake is jointly placed under the control of the implementation of the solenoid valve (20) for fuel injection to the nozzle.   6.- Installation according to any one of claims 3 to 5, characterized in that the outlet of the pipe (4) for supplying water is equipped with a nozzle (11), the pipe (4) d supplying the water opening axially inside a chamber (10) for connecting the water supply pipe (4) with the main oil supply pipe (9), the latter (9) opening radially inside the chamber (10).   7.- Installation according to any one of claims 3 to 6, characterized in that elastic means (25) are placed in interposition between the pot (14) and the water delivery means to prevent transmission to these vibrations generated by the agitator (15) in operation.   8.- Installation according to claim 7, characterized in that said elastic means (25) consist of a flexible antivibration sleeve interposed between two segments of the pipe (4) for supplying water.   9.- Method for implementing an installation according to any one of   preceding claims, characterized   in that it consists in placing the motor (16) of the agitator (15) under the control means (22) of the implementation of the pump (17) to cause their concomitant implementation, placing the use of the means (6) for supplying the water of the network (3) under the control of the implementation of the solenoid valve (20) for the admission of the fuel to the burner (1) for cause them to be implemented concomitantly, and to stop the operation of the motor (16) of the stirrer (15) and the means (6) for supplying the water of the network (3). under the control of the shutdown of the power supply of the corresponding organs of the burner.